As a supplementary vasopressor, arginine vasopressin can reverse hemodynamic failure and significantly decrease norepinephrine dosages.. Whether the promising possibility of ‘bridging’ a
Trang 1134 AVP = arginine vasopressin.
Critical Care April 2005 Vol 9 No 2 Duenser and Hasibeder
Abstract
Cardiovascular failure is one of the central therapeutic problems in
patients with severe infection Although norepinephrine is a potent
and, in most cases, highly effective vasopressor agent, very high
dosages leading to significant side effects can be necessary to
stabilize advanced shock As a supplementary vasopressor,
arginine vasopressin can reverse hemodynamic failure and
significantly decrease norepinephrine dosages Whether the
promising possibility of ‘bridging’ advanced septic shock when the
benefit/risk ratio of catecholamine therapy leaves a clinically
tolerable range may improve quantitative and qualitative patient
outcome can only be determined by a large, prospective,
randomized study
Cardiovascular failure is one of the central therapeutic
problems in patients with severe infection Current
recommendations for the treatment of septic shock include
volume therapy, and the use of dobutamine and dopamine or
norepinephrine [1] Although particularly norepinephrine is a
potent and, in most cases, highly effective vasopressor agent,
it cannot stabilize cardiovascular function in some patients
with severe hemodynamic failure and sepsis-mediated
vascular hyposensitivity to endogenous and exogenous
catecholamines [2] By further increasing norepinephrine
dosages (> 0.5–1µg/kg/min) to guarantee adequate
perfusion pressure at these stages of shock, intensivists often
enter a vicious circle when significant adrenergic side effects
occur that may further deteriorate shock and contribute to an
adverse outcome (tachyarrhythmias, myocardial ischemia,
decreased cardiac output, increased tissue oxygen
consumption, pulmonary hypertension, etc.) [3] In a minor,
but for the critical care clinician most challenging, portion of
patients with catecholamine-resistant septic shock, therefore,
mortality approaches 80–100% Correspondingly, more than
one-half of the patients succumbing to sepsis die from
advanced cardiovascular failure in which conventional
catecholamine vasopressor therapy has reached its therapeutic limits
Landry and colleagues first reported the successful stabilization of catecholamine-resistant septic shock by infusion of arginine vasopressin (AVP) [4] In response to this interesting finding, numerous smaller clinical studies have examined the hemodynamic response to AVP infusion
in advanced septic shock As concisely summarized in the review article by Delmas and colleagues [5], most studies reported the reversal of hypotension after the initiation of AVP therapy even in the late stages of cardiovascular failure Simultaneously, supplementary AVP infusion allowed for a significant reduction in catecholamine support High adrenergic vasopressor dosages could therefore be decreased into ranges with a tolerable benefit/risk ratio, where significantly less cardiovascular complications occurred when compared with high-dose norepinephrine infusion alone [6] Moreover, further positive effects of additional AVP infusion on renal and endocrinologic function have been reported in patients with septic shock [7–9] After cardiovascular function has stabilized and norepinephrine support could be withdrawn to dosages
< 0.2–0.3µg/kg/min, AVP was slowly withdrawn in most studies Administered as a supplementary vasopressor agent, AVP seems to be capable of bridging the phase of advanced cardiovascular failure and prevent that a vicious circle of high-dose catecholamine therapy develops The pivotal issue of clinical research on the use of AVP in septic shock must therefore not be the question ‘Can AVP replace norepinephrine therapy?’, but be the question ‘Can the supplementary infusion of AVP in addition to norepinephrine improve the quantitative and qualitative outcome of advanced septic shock?’
Commentary
Dear vasopressin, where is your place in septic shock?
Martin W Duenser1 and Walter R Hasibeder2
1Resident, Division of General and Surgical Intensive Care Medicine, Department of Anesthesiology and Critical Care Medicine, The Medical University
of Innsbruck, Austria
2Head, Department of Anesthesiology and Critical Care Medicine, Krankenhaus der Barmherzigen Schwestern, Ried im Innkreis, Austria
Corresponding author: Martin W Duenser, csab3987@uibk.ac.at
Published online: 15 November 2004 Critical Care 2005, 9:134-135 (DOI 10.1186/cc2996)
This article is online at http://ccforum.com/content/9/2/134
© 2004 BioMed Central Ltd
See review, page 212 [http://ccforum.com/content/9/2/212]
Trang 2Available online http://ccforum.com/content/9/2/134
Although, as described in this review [5], the cardiovascular
response to AVP infusion in septic shock has been well
reported, the mechanisms of action of AVP remain much less
clear Since low AVP plasma concentrations have been found
in septic shock patients, AVP infusion was first proposed to
represent hormone replacement therapy rather than
vasopressor therapy [10,11] Delmas and colleagues are
right to ask how robust such a concept of AVP replacement
in advanced cardiovascular failure is A recent study
demonstrated that plasma AVP levels were almost always
increased in the initial phase of septic shock, and decreased
thereafter Accordingly, the relative AVP deficiency and
consequently the suggested indication for AVP hormone
replacement was found only in one-third of late septic shock
patients [12] Additionally, the increase in arterial pressure
during AVP infusion occurs independently of plasma AVP
concentrations [9,13] AVP therapy at dosages from 0.01 to
0.1 U/min increases plasma concentrations to 100–250 pg/ml
[9,14], which is 50-fold to 100-fold higher than the AVP
levels reported in patients with cardiogenic shock and septic
shock states still responding to conventional therapy [15]
Therefore, institution of AVP infusion in advanced septic
shock should not be guided by endocrinologic, but by
hemodynamic indications!
Whether the promising possibility of ‘bridging’ advanced
septic shock when the benefit/risk ratio of catecholamine
therapy leaves a tolerable clinical range may also improve
quantitative and qualitative patient outcome can only be
determined by a large, prospective, randomized study Such a
study will finally also answer the question of whether positive
effects of AVP on macrocirculatory parameters are
outweighed by possible adverse side effects on the
microcirculation system, the hepatosplanchnic system or the
coagulation system A prospective multicenter study is
currently underway in North America and Australia, with the
first results expected in late 2006 While no data of
supplementary AVP infusion in advanced septic shock on
patient outcome exist, the infusion of AVP in addition to
catecholamine vasopressor agents in order to reduce high,
potentially toxic adrenergic vasopressor dosages can only be
recommended as a last-resort therapy [1]
Delmas and colleagues must be congratulated on their
precise and clinically relevant review article, which excellently
describes the physiological background of AVP Moreover, it
supplies the critical care clinician with a reasonable overview
of the studies so far published on the use of AVP in septic
shock [5]
Competing interests
The author(s) declare that they have no competing interests
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